Performance of Bifacial Photovoltaic Modules on a Dual-Axis Tracker in a High-Latitude, High-Albedo Environment

Source

• Laurie Burnham, Daniel Riley, Bevan Walker and Joshua M. Pearce. Performance of Bifacial Photovoltaic Modules on a Dual-Axis Tracker in a High-Latitude, High-Albedo Environment, 2019 IEEE 46th Photovoltaic Specialists Conference (PVSC), Chicago, IL, USA, 2019, pp. 1320-1327. https://doi.org/10.1109/PVSC40753.2019.8980964 open access
  • Sandia - The Impact of Snow on PV Performance

Abstract

Bifacial photovoltaic dual-axis tracker systems have the potential to out-perform other module/mounting configurations at high latitudes, where the reflectivity of snow in winter boosts bifacial performance and the low solar angle-of-incidence favors dual-axis tracking. Two years of empirical data from dual-axis experimental systems in Vermont support this assertion, demonstrating that bifacial modules on a dual-axis tracker produced 14 percent more electricity in a year than their monofacial counterparts and as much as 40 percent during the peak winter months. These bifacial gains are in addition to the estimated 35-40 percent energy gains of a dual-axis tracker relative to a fixed-tilt system. Such findings suggest that bifacial two-axis tracker systems could be economically attractive in northern latitudes, with high-efficiency modules compensating for the trackers' installation and maintenance costs, and future design improvements enabling further performance gains.

See also[edit | edit source]

• Details on PV performance monitoring by R. Andrews. PV Performance Modeling: Assessing Variability, Uncertainty and Sensitivity. Solar Professional Issue 8.5, Sep/Oct 2015.
• "The 10 Snowiest Places on the Planet" by the Mother Nature Network.
• A Review of the Effects of Haze on Solar Photovoltaic Performance

Related Pages[edit | edit source]

• Differences in Snow Shedding in Photovoltaic Systems with Framed and Frameless Modules
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• Solar resource measurement for PV applications
• Prediction of energy effects on photovoltaic systems due to snowfall events
• A new method to determine the effects of hydrodynamic surface coatings on the snow shedding effectiveness of solar photovoltaic modules
• Monofacial vs bifacial solar photovoltaic systems in snowy environments

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